CN209082125U - A kind of double group density flat braiding machine cam base plates - Google Patents

Abstract

A kind of double group density flat braiding machine cam base plates, are arranged dual density trigonometric sum dual density control mechanism, comprehensively control mechanism, pressing plate control mechanism and control mechanism of pushing pin in cam base plate.While two groups of density domination functions can be performed simultaneously by realizing, accomplish that all control mechanisms are all made of Closed-Loop Control of Stepping Motor, the reliability and failure for improving work constantly monitor.Realize high efficiency, less trouble, modularization and multi-functional effect.

Description

A kind of double group density flat braiding machine cam base plates

Technical field

The utility model relates to flat braiding machine technical field, specifically a kind of double group density flat braiding machine triangle bottoms Plate.

Background technique

Cam base plate is the important component of computer flat-bed knitting machine, and the function and stability of cam base plate directly determine complete machine Function and stability.Cam base plate can complete braiding, needle-turning and loop-transferring in design and use, connect needle adapter ring, hang mesh and not Five kinds of basic functions are knitted, are needed in five functions are used alone or in combination by needle overturning triangle, knitting cam and Anchor plate kit Switching needs to come by the displacement of density triangular the length of control coil to realize function switch, to realize the more of knitting product Kind flower pattern and elasticity.

There are many deficiencies in traditional cam base plate design and use, such as: 1) density triangular only has single group structure, only It can be realized single group density domination, density transform range is smaller to cannot achieve single needle control.2) uses electromagnet and groups of springs It closes to control triangle switching, only electromagnet energization iron core pop-up overcomes spring force by triangle pressure and electromagnet energization iron core It withdraws spring and triangle is retracted into two kinds of working conditions of initial position, be unable to satisfy more complex flower pattern and need wanting for more angular positions It asks.There is also electromagnetic heating, electromagnetism failure and spring mechanical fatigues etc. when continuously working long hours for electromagnet and spring simultaneously Defective effect job stability.3) triangle control cannot achieve closed loop, once work occur not in place for electromagnet or spring, Computer cannot monitor immediately and stopping alarm, it may appear that more serious damage accident.

Utility model content

The double groups of density flat braiding machine cam base plates provided by the utility model that can be precisely controlled.In order to realize above-mentioned mesh , the technical solution adopted in the utility model is as follows:

A kind of double group density flat braiding machine cam base plates, are equipped with dual density control assembly, synthesis in the cam base plate Control assembly, pressing plate control assembly and control assembly of pushing pin can be performed simultaneously two groups of density dominations, monitor and control each three The shift position at angle.

Further, dual density triangular element is provided in the cam base plate, the dual density triangular element includes The upper density trigonometric sum for executing first group of density of upper and lower position arrangement is used to execute second group of density lower density triangle, Upper and lower density triangular is separately fixed on density sliding block, and it is sliding that upper and lower density sliding block is connected to the density equipped with control sliding slot In block baffle, it is arranged in the sliding slot on the triangle supporting plate of the cam base plate in the upper lower density sliding block of the shape of female and male fish.

Further, the control that the dual density control assembly is connected to the density sliding block baffle by density bearing is sliding It in slot, and is connected on the triangle supporting plate by comprehensive fixing seat, the dual density control assembly is passed through by upper and lower density electrical machine Gear set drives the transverse movement of lower density rack gear respectively, and the plate of density domination up and down connecting with the upper lower density rack gear is along comprehensive The side-to-side movement of fixing seat horizontal direction is closed, density bearing block and the density bearing are equipped on upper and lower density domination plate, up and down Density bearing drives the dual density triangular element to move in the sliding slot of the cam base plate respectively, realizes double group density controls System.

Further, it is mounted on the movement of the density sensor real time monitoring density rack gear of the density rack gear corresponding position Position, to monitor the operating position of dual density triangle.

Further, knitting cam and needle-turning and loop-transferring triangle, the dual density triangle group are equipped in the cam base plate The two sides of knitting cam are arranged in part, and the top with knitting cam corresponding position is arranged in the needle-turning and loop-transferring triangle.

Further, the knitting cam guide bracket of the knitting cam and needle-turning and loop-transferring triangle and the comprehensively control component and Needle-turning and loop-transferring triangle guide bracket is connected；The knitting cam guide bracket and needle-turning and loop-transferring triangle guide bracket are separately mounted to comprehensive fixing seat In pilot hole, and is connected by needle overturning wraping plate and realize relative position linkage；

Knitting cam guide rod is connected with needle overturning cam, needle overturning cam, control motor gear, pressing plate control gear and coding disk Be sequentially connected, be connected in comprehensive fixing seat by cam chair, rotated by control motor driven gear, on coding disk be equipped with The corresponding location groove of 7 stations.

Further, the pressing plate control assembly is used to control the gear control sheet in H, the pressing plate control Component processed include plate bearing, be mounted in plate bearing sliding slot hang mesh pressing plate, left and right connect needle pressing plate, control pressing plate work Pressing plate rack gear and the slot optical coupling switch and null pick-up for monitoring angular position, pressing plate rack gear are engaged on pressing plate control gear On, band carry-over bar movement is rotated by gear, the station control flume control left and right being arranged on rack gear connects needle pressing plate and hangs mesh pressure Plate is displaced along the chute respectively.

Further, push pin control assembly and the left and right triangle joint of pushing pin, the left and right triangle of pushing pin pass through choosing In selection piece shift gear control sheet onto A by H, the control assembly of pushing pin include push pin Triangulum, pull rod of pushing pin, push away Needle driving lever, left and right triangle of pushing pin, which is mounted on, pushes pin in Triangulum, pull rod of pushing pin control push pin triangular motion, set on pull rod of pushing pin There is control sliding slot and be clamped the push pin card slot of driving lever, driving lever of pushing pin and is mounted on and pushes pin on motor output shaft, it is corresponding in driving lever of pushing pin The sensor that position is equipped with.

Further, the cam base plate includes triangle supporting plate and needle selection supporting plate, and upper needle bell is equipped on the upside of triangle supporting plate Triangle group is controlled, upper needle bell control group includes that needle-turning and loop-transferring triangle described in needle triangle, bridge trigonometric sum is protected in left, center, right；In triangle supporting plate Downside corresponding position be equipped with knit stitch bell control triangle group, knit stitch bell control triangle group include butterfly mountain triangle, the knitting cam, The clear needle triangle in left and right dual density trigonometric sum left, center, right；Being equipped in the middle part of triangle supporting plate includes returning for left, center, right back-stitching cam Needle triangle group；It is provided with the pressing plate control assembly on the downside of the junction butterfly mountain triangle of triangle supporting plate and needle selection supporting plate, Fixation clip triangle is equipped on the downside of pressing plate control assembly；Being equipped on the upside of needle selection supporting plate includes left, center, right needle selection shield needle triangle Needle selection protects needle triangle group；Corresponding with needle selection shield needle triangle group on the downside of needle selection supporting plate is comprising left, center, right needle selection rise cam Needle selection rise cam group；It is triangular element of pushing pin on the upside of needle selection rise cam group；

The distance between described two knitting cam centers of cam base plate are 116-126mm.

The beneficial effects of the utility model can be summarized as follows:

1. realizing that single needle density accurately controls using double group density structures, two groups of density can be performed simultaneously.It pushes and uses this The machine of utility model realizes biggish Function Extension, can innovate and create more new flower-shaped and new process, a large amount of abundant knittings Product category.

2. all triangles realize Closed-Loop Control of Stepping Motor, the operating position of each triangle can be accurately controlled, it can be real The more angular position demand of existing more complex flower pattern demand.Angular position can constantly be monitored using closed-loop control, avoided because of three Angular motion is made not in place and biggish breakdown loss occurs.

Detailed description of the invention

Fig. 1 is the dual density triangular element structure chart of the utility model cam base plate；

Fig. 2 is the dual density control assembly structure chart of the utility model cam base plate；

Fig. 3 is the comprehensively control component structure diagram of the utility model cam base plate；

Fig. 4 is the pressing plate control assembly structural schematic diagram of the utility model；

Fig. 5 is the control assembly structural schematic diagram of pushing pin of the utility model；

Fig. 6 is three system structure diagrams of the double group density flat braiding machine cam base plates of the utility model；

Fig. 7 is the double group density operation principle schematic diagrams of the utility model；

Fig. 8 is the double group density weave knitting needle running track schematic diagrames of the utility model；

Fig. 9 is that first group of the utility model, second group of density weave density hangs mesh knitting needle running track schematic diagram；

Figure 10 is that the utility model commonly weaves plus hangs mesh knitting needle running track schematic diagram；

Figure 11 is (barring-on) adjunction of the utility model needle overturning needle (adapter ring) knitting needle running track schematic diagram；

Figure 12 is that the utility model commonly weaves knitting needle running track schematic diagram.

Label declaration: 1. upper left density triangulars, 2. lower-left density triangulars, 3. upper density sliding blocks, 4. lower density sliding blocks, on 5. Density sliding block baffle, 6. lower density sliding block baffles, 7. upper density control panels, 8. lower density control panels, 9. density bearing blocks, 10. Density bearing, 11. upper density rack gears, 12. lower density rack gears, 13. upper density reduction gearing, 14. lower density reduction gearing, 15. Density electrical machine gear, 16. density electrical machine plates, 17. density electrical machines, 18. density sensors, 19. density springs, 20. comprehensive fixations It is seat, 21. needle overturnings (barring-on) triangle guide bracket, 22. needle overturning cams, 23. needle overturning wraping plates, 24. control gears, 25. control shafts, 26. convex Wheel seat, 27. accelerating gears, 28. control motors, 29. pressing plates control gear, 30. coding disks, 31. knitting cam guide brackets, 32. Control motor gear, 33. knitting cams, 34. needle overturnings (barring-on) triangle, 35. plate bearings, 36. hang mesh pressing plate, 37. connect needle pressure It pushes pin triangle, 43. on push pin triangle, 42. right sides of plate, 38. pressing plate rack gears, 39. slot optical couplings switch, 40. null pick-ups, 41. left sides Push pin Triangulum, 44. push pin pull rod, 45. push pin driving lever, 46. push pin motor cabinet, 47. push pin motor, 48. sensors, 49. pass Sensor frame, 50. left shield needle triangles protect needle triangle, 52. right shield needle triangles, 53. bridge triangles, back-stitching cam, 55. in 54. in 51. Left back-stitching cam, 56. right back-stitching cams, 57. Zuo Qingzhen triangles, clear needle triangle, 59. right clear needle triangles, 60. butterfly mountains three in 58. Angle, 61. fixation clips, 62. left needle selections shield needle triangles, needle selection shield needle triangle, 64. right needle selections protect needle triangles, 65. left choosings in 63. Needle rise cam, needle selection rise cam, 67. right needle selection rise cams, 68. upper right density triangulars, 69. bottom right density three in 66. Angle, 70. triangle supporting plates, 72. needle selection supporting plates, 73.A gear control sheets, 74.H gear control sheets, 75. first group of execution are close The needle jack of the needle jack of degree, 76. second group of density of execution.

Specific embodiment

The technical issues of in order to keep the utility model solved, technical solution and beneficial effect are more clearly understood, below In conjunction with accompanying drawings and embodiments, the present invention will be further described in detail.It should be appreciated that specific implementation described herein Example only to explain the utility model, is not used to limit the utility model.

Dual density trigonometric sum dual density control mechanism, comprehensively control mechanism, pressure is arranged in the utility model in cam base plate Plate control mechanism and control mechanism of pushing pin realize the control function that can be performed simultaneously two groups of density, and all control mechanisms are all made of step Into motor closed-loop control, the reliability and failure for improving work are constantly monitored.

Embodiment 1

Dual density cam mechanism

As shown in Figure 1, 2, 3, a kind of double group density flat braiding machine cam base plates, are provided with dual density three in cam base plate Angular component, dual density triangular element include the upper density triangle 1 for being used to execute first group of density of upper and lower position arrangement and are used for Second group of density lower density triangle 2 is executed, upper and lower density triangular is separately fixed on density sliding block, upper and lower density sliding block 3,4 It is connected on the density sliding block baffle (5. upper density sliding block baffles, 6. lower density sliding block baffles) for being equipped with control sliding slot, is in The upper lower density sliding block of the shape of female and male fish is arranged in the sliding slot in cam base plate.

Dual density control mechanism

Dual density control assembly is connected in the control sliding slot of density sliding block baffle by density bearing 10, and by comprehensive solid Reservation is connected in cam base plate, and dual density control assembly is driven by upper and lower density electrical machine 17 by gear set upper and lower close respectively Rack gear 11,12 transverse movements are spent, the upper and lower density domination plate 7,8 connecting with upper lower density rack gear is along comprehensive fixing seat level side It moves leftwards and rightwards.Density bearing block 9 and density bearing 10, upper and lower density bearing band respectively are equipped on upper and lower density domination plate Dynamic dual density triangular element moves in the sliding slot of triangle supporting plate, realizes double group density dominations.

The density sensor 18 for being mounted on density rack gear corresponding position monitors the shift position of density rack gear in real time, to supervise Survey the operating position of dual density triangle.

Embodiment 2

As shown in fig. 6, the cam base plate of the utility model includes triangle supporting plate 70 and needle selection supporting plate 72.

On the upside of triangle supporting plate be equipped with upper needle bell control triangle group, upper needle bell control group include left, center, right shield needle triangle 50, 51,52, bridge triangle 53 and needle-turning and loop-transferring triangle 34.

Corresponding position is equipped with knit stitch bell and controls triangle group on the downside of triangle supporting plate, and it includes butterfly mountain that knit stitch bell, which controls triangle group, Triangle 60, knitting cam 33, the clear needle triangle 57,58,59 of left and right dual density triangular element and left, center, right, dual density triangular element The two sides of knitting cam are set, and the top with knitting cam corresponding position is arranged in needle-turning and loop-transferring triangle.

Equipped with the back-stitching cam group for including left, center, right back-stitching cam 54,55,56 in the middle part of triangle supporting plate；In triangle supporting plate It is provided with pressing plate control assembly on the downside of the junction butterfly mountain triangle of needle selection supporting plate, is equipped with and fixes on the downside of pressing plate control assembly Pressing plate 61 is on the upside of needle selection supporting plate equipped with the needle selection shield needle triangle group for including left, center, right needle selection shield needle triangle 62,63,64；? Corresponding with needle selection shield needle triangle group on the downside of needle selection supporting plate is that the needle selection comprising left, center, right needle selection rise cam 65,66,67 rises Needle triangle group；It is triangular element of pushing pin on the upside of needle selection rise cam group；Between two knitting cam centers of cam base plate away from From for 116-126mm.

Embodiment 3

Comprehensively control mechanism

As shown in Figure 3,4, it the knitting cam guide bracket 31 of knitting cam and needle-turning and loop-transferring triangle and comprehensively control component and turns over Needle transfer cam guide bracket 21 is connected；Knitting cam guide bracket and needle-turning and loop-transferring triangle guide bracket are separately mounted to the guiding of comprehensive fixing seat In hole, and is connected by needle overturning wraping plate 23 and realize relative position linkage.

Knitting cam guide rod is connected with needle overturning cam 22, and needle overturning cam, control motor gear 32, pressing plate control 29 and of gear Coding disk 30 is sequentially connected by control shaft, and is connected in comprehensive fixing seat 20 by cam chair 26, by control motor 28 Band moving gear rotates, and location groove corresponding with 7 stations is equipped on coding disk, with the groove profile light being mounted on plate bearing 35 Coupling switch 39 and null pick-up 40 cooperate real-time measure and control axis rotation angle to monitor the location status of each triangle.

Embodiment 4

Pressing plate control mechanism

As shown in Fig. 4,7, pressing plate control assembly is provided in cam base plate, pressing plate control assembly is used for in H Gear control sheet 74 controlled, pressing plate control assembly includes plate bearing 35, is mounted in plate bearing sliding slot and hangs mesh The slot optical coupling that pressing plate 36, left and right connect needle pressing plate 37, the pressing plate rack gear 38 of control pressing plate work and monitoring angular position is opened 39 and the null pick-up 40 are closed, pressing plate rack gear is engaged on pressing plate control gear, band carry-over bar movement is rotated by gear, The station control flume control left and right processed on rack gear connects needle pressing plate and hangs mesh pressing plate to be displaced along the chute respectively.

By different position groupings to complete work zero-bit, braiding station, braiding plus hang mesh station, two groups of density weaves Left lateral and right lateral station, one group of density weave, one group of density hang purpose left lateral and right lateral station, needle overturning (barring-on) adjunction needle (connect Circle) station multistation control work.

Embodiment 5

It pushes pin control mechanism

As shown in figure 5, the cam base plate is equipped with the control assembly of pushing pin with left and right triangle joint of pushing pin, it is described to push away Needle control assembly includes push pin Triangulum 43, pull rod 44 of pushing pin, driving lever 45 of pushing pin.Controlling can be by choosing when pushing pin triangle work Selection piece shift gear control sheet onto A by H.To realize that common density braiding, second group of density weave and needle overturning are moved Circle movement.

Push pin on Triangulum at the same be equipped with control push pin triangle movement pull rod of pushing pin, be machined with control on pull rod of pushing pin The push pin card slot of driving lever, driving lever of pushing pin of sliding slot and clamping is mounted on and pushes pin on 47 output shaft of motor, is additionally provided with sensor 48 of pushing pin. Motor of pushing pin rotation drives driving lever rotation of pushing pin, so that pull rod of pushing pin be driven to move left and right along the chute, processing is being pushed pin on pull rod Control sliding slot drive left and right triangle of pushing pin to move up and down along a pilot hole of pushing pin.It is mounted on driving lever corresponding position of pushing pin simultaneously Sensor detects the rotation angle for driving lever of pushing pin constantly to monitor triangle operating position of pushing pin.

Dual density control principle, as shown in fig. 7, the cam base plate will by needle selection rise cam group and triangle group of pushing pin Gear control sheet is distinguished into A gear control sheets 73 and H gear control sheets 74.Track locating for A gear control sheets is not pressed Plate triangle work, so making the needle jack being attached thereto be also at the state being fully deployed in fully unfolded position.H gears Track locating for control sheet executes dual density state of a control because pressing plate control assembly is in, and Ji Jiezhen pressing plate 37 drops to certain position It sets, gear control sheet is depressed certain size, and the needle jack being attached thereto is made also to be depressed certain size.Simultaneously because of double density Degree triangle is upper and lower hierarchical design, and lower density triangle 2 can only be pressed onto the needle jack 75 being fully deployed and execute second group of density, upper close Degree triangle 1 can be pressed onto the needle jack 76 after decline and execute first group of density.

The utility model is described in detail above by specific and preferred embodiment, but those skilled in the art answer This understands that the utility model is not limited to embodiment described above, within the spirit and principle of the utility model, is made Any modification, equivalent replacement etc., should be included within the scope of protection of this utility model.

Claims (9)

1. a kind of double group density flat braiding machine cam base plates, which is characterized in that be equipped with dual density in the cam base plate and control Component, comprehensively control component, pressing plate control assembly and control assembly of pushing pin can be performed simultaneously two groups of density dominations, and monitoring is simultaneously Control the shift position of each triangle.

2. double group density flat braiding machine cam base plates according to claim 1, it is characterised in that: in the cam base plate It is provided with dual density triangular element, the dual density triangular element includes upper and lower position arrangement for executing first group of density Upper density trigonometric sum is separately fixed on density sliding block for executing second group of density lower density triangle, upper and lower density triangular, Upper and lower density sliding block is connected on the density sliding block baffle for being equipped with control sliding slot, in the upper lower density of the shape of female and male fish Sliding block is arranged in the sliding slot on the triangle supporting plate of the cam base plate.

3. double group density flat braiding machine cam base plates according to claim 2, which is characterized in that the dual density control group Part is connected in the control sliding slot of the density sliding block baffle by density bearing, and is connected to the triangle by comprehensive fixing seat On supporting plate, the dual density control assembly drives lower density rack gear laterally to transport respectively by upper and lower density electrical machine by gear set Dynamic, the plate of density domination up and down connecting with the upper lower density rack gear is along comprehensive fixing seat horizontal direction side-to-side movement, upper and lower Density domination plate is equipped with density bearing block and the density bearing, and upper lower density bearing drives the dual density triangle group respectively Part moves in the sliding slot of the cam base plate, realizes double group density dominations.

4. double group density flat braiding machine cam base plates according to claim 3, which is characterized in that be mounted on the density tooth The shift position of the density sensor real time monitoring density rack gear of corresponding position, to monitor the working position of dual density triangle It sets.

5. double group density flat braiding machine cam base plates according to claim 2, which is characterized in that in the cam base plate Equipped with knitting cam and needle-turning and loop-transferring triangle, the two sides of knitting cam are arranged in the dual density triangular element, and the needle overturning is moved The top with knitting cam corresponding position is arranged in circle triangle.

6. double group density flat braiding machine cam base plate according to claim 5, which is characterized in that the knitting cam and turn over Needle transfer cam is connected with the knitting cam guide bracket of the comprehensively control component and needle-turning and loop-transferring triangle guide bracket；The knitting cam Guide bracket and needle-turning and loop-transferring triangle guide bracket are separately mounted in the pilot hole of comprehensive fixing seat, and are realized relatively by the connection of needle overturning wraping plate Position linkage；

Knitting cam guide rod is connected with needle overturning cam, and needle overturning cam, control motor gear, pressing plate control gear and coding disk are successively Connection, is connected in comprehensive fixing seat by cam chair, is rotated by control motor driven gear, is equipped with and 7 on coding disk The corresponding location groove of station.

7. double group density flat braiding machine cam base plates according to claim 6, the pressing plate control assembly are used for in H The gear control sheet of position is controlled, which is characterized in that the pressing plate control assembly includes plate bearing, is mounted on plate bearing Hanging mesh pressing plate, controlling the slot optical coupling for connecing needle pressing plate, the pressing plate rack gear of control pressing plate work and monitoring angular position in sliding slot Switch and null pick-up, pressing plate rack gear are engaged on pressing plate control gear, rotate band carry-over bar movement by gear, setting exists Station control flume control left and right on rack gear connects needle pressing plate and hangs mesh pressing plate to be displaced along the chute respectively.

8. double group density flat braiding machine cam base plates according to claim 7, the control assembly of pushing pin are pushed pin with left and right Triangle joint, the left and right triangle of pushing pin pass through the selection piece chosen and shift gear control sheet onto A by H, and feature exists In the control assembly of pushing pin includes pushing pin Triangulum, pull rod of pushing pin, driving lever of pushing pin, and left and right triangle of pushing pin, which is mounted on, pushes pin three In angled seat, pull rod of pushing pin controls triangular motion of pushing pin, pull rod of pushing pin is equipped with control sliding slot and is clamped the card slot for driving lever of pushing pin, pushes away Needle driving lever, which is mounted on, pushes pin on motor output shaft, in the sensor that driving lever corresponding position of pushing pin is equipped with.

9. double group density flat braiding machine cam base plate according to claim 5, it is characterised in that: the cam base plate includes Triangle supporting plate and needle selection supporting plate,

It is equipped with upper needle bell on the upside of triangle supporting plate and controls triangle group, upper needle bell control group includes that needle triangle, bridge triangle are protected in left, center, right With the needle-turning and loop-transferring triangle；

Corresponding position is equipped with knit stitch bell and controls triangle group on the downside of triangle supporting plate, and it includes butterfly mountain three that knit stitch bell, which controls triangle group, Angle, the knitting cam, the clear needle triangle in left and right dual density trigonometric sum left, center, right；

Equipped with the back-stitching cam group for including left, center, right back-stitching cam in the middle part of triangle supporting plate；

It is provided with the pressing plate control assembly on the downside of the junction butterfly mountain triangle of triangle supporting plate and needle selection supporting plate, in pressing plate control Fixation clip triangle is equipped on the downside of component processed；

Equipped with the needle selection shield needle triangle group for including left, center, right needle selection shield needle triangle on the upside of needle selection supporting plate；

Corresponding with needle selection shield needle triangle group on the downside of needle selection supporting plate is the needle selection starting comprising left, center, right needle selection rise cam Triangle group；

It is triangular element of pushing pin on the upside of needle selection rise cam group；

The distance between described two knitting cam centers of cam base plate are 116-126mm.